92'7 ties reported.?
An nmr spectrum (DMSO) with sodium 3-(tri-
methylsilyl)propanesulfonate as an internal standard showed 6 6.84 (d, 2, J = 3.6 Hz), 7.35 (t, 1, J = 3.6 Hz), and 8.85 ppm (s, 2). 2-Methyl-2H-cyclopenta[dlpyridazine (5). Method A. A mixture of 1.29 g (8.66 mmol) of 2-formyl-6-dimethylaminofulvene (9),7 0.15 ml (14 mmol) of methylhydrazine, and 15 ml of absolute ethanol was swirled to effect solution and then allowed to stand at room temperature. A yellow precipitate formed (10 min) and after 8 hr the collected precipitate together with the residue from the filtrate (solvent removal under reduced pressure with a rotary evapmm) giving 0.93 g (85%) orator) was sublimed twice at 45" (ca. of 5 as a yellow solid: mp 128.8-129.0"; uv max (anhydrous ether) 248 (29,400), 253 (28,900), 268 (15,400), 307 (sh, 12,200), 312 (3810), 317 (3610), 324 (3310), and 395 m p (e 821); nmr (CH2C12)6 3.95 (s, 3), 6.78 (d, 2, J = 3.4Hz), 7.38(t, 1, J = 3.4 Hz), 8.28 (poorly resolved t, 1, J = 0.8 Hz), and 8.67 ppm (broad s, 1). The ir (HCCI,) was recorded. Aizul. Calcd for C8H8N2: C, 72.70; H , 6.10; N, 21.20. Found: C , 72.28; H , 6.42; N, 21.12. Method B. T o 150 ml of methanol (freshly distilled from magnesium methoxide) in a 5Wm1, three-necked flask containing 0.415 g (7.69 mmol) of sodium methoxide under dry nitrogen was added 0.5 ml (6.05 mmol) of freshly cracked cyclopentadiene and, after 10 min, 0.949 g (4.16 mmol) of vacuum-dried N-methyl-1,3,4thiadiazolium iodide (10). The color of the solution became golden. The mixture was refluxed for I .S hr and then steam distilled (Eastman condenser) for 1 hr. The yellow distillate was extracted with dichloromethane until the extracts were colorless. The residue left after removal of the solvent from the combined, dried (MgS04) extracts was extracted with boiling heptane. Evaporation of the heptane solution and sublimation (45" (CCI. 10-5 mm)) gave 47.7 mg (8.7%) of 5 , mp 129-130", identical (uv, ir) with the product from A. Method C. A mixture of 1.8 g (11.9 mmol) of 9,7 0.58 ml (11.7 mmol) of hydrazine hydrate, and 30 ml of absolute ethanol was refluxed under nitrogen for 2.25 hr, allowed to cool, and was then treated in order with 1.7 ml of 25% sodium hydroxide and 2 ml of methyl iodide. After 4 hr, the solvent was removed (rotary evaporator, aspirator) and the residue was extracted several times with ether under reflux ( I hr). The residue from the combined ether extracts was extracted with several 150-ml portion? of /?-hexane
under reflux (1 hr). Sublimation (45" (ca. 10-5 mmj) of the residue from the !?-hexane solutions gave 428 mg (27 %) of 5 identical (melting point, uv, ir) with the product from A. 2-Phenyl-2H-cyclopenta[~pyridazine(6). The crude product, prepared as described by Hafner, et al.,' was chromatographed on a short silica gel column with dichloromethane as the eluent. The material obtained was crystallized from absolute ethanol and then sublimed to give 6 as a yellow solid: mp 167-168" (lit.' mp 161162"); uv max (anhydrous ether) 248 (22,400), 258 (sh, 19,800), 287 (28,400), 318 (sh, 7330), and 408 mp ( e 2850;; nmr (CH2C12) 6 6.83 (pair of doublets, J = 4 Hz, subsplit into triplets, J = 1 Hz,1),7.36-7.92(m,6),andS.S8ppm(m,2). N-Methy1-1,3,4-thiadiazoliumIodide (10). The red solution formed when a mixture of 3.09 g (36 mmol) of 1,3,4-thiadia~ole,~g 2.5 ml of methyl iodide, and 30 ml of dry dimethylformamide was heated on a steam cone under reflux for 45 min was poured into a beaker and 400 ml of dry ether was added. After filtration, the collected precipitate was washed with ether and vacuum dried (removing an odoriferous impurity) giving 6.67 g (81.5%) of 10 as a light yellow solid, mp 230" dec (lit.20241°), which was used without further purification. pKa of 2-Methyl-2H-cyclopenta[dJpyridazine (5). A I .40 X 10-3 M stock solution of 5 was prepared by vigorous stirring of 18.5 mg of 5 in 100 ml of distilled water for 3 hr. Individual test solutions were prepared by diluting IO-ml aliquots to 25 ml (5.6 X M in 5 ) with hydrochloric acid of different concentrations such that different solutions having pHs of 1.50-2.72 were obtained as determined on a calibrated (pH 4.01 with phthalate buffer) Beckman Research pH meter at 24-25". The method used for the pK, determinations was that described by Albert and Serjeant. Optical densities at 350 m/p were read at 25.0 i 0.1 on a Beckman Model DU spectrophotometer fitted with a Gifford Absorbance Indicator Model 2000. Maximum slit widths were 0.14 mm. The value of dm18was determined i n aqueous sodium formate solution at p H 7.38 and d,l8 was determined in CCI. 7.2 N hydrochloric acid, The six pK, values obtained ranged from 1.92 to 1.98 and the average was 1.95. (19: I